Friday, January 21, 2011

Gearing up for Biomedical Optics Symposium (BiOS)/Photonics West--Part 2

The tribute to MIT's Michael S. Feld, which will kick off the BiOS Hot Topics session on Saturday night, will be followed by seven other presentations, including one by David Huang, a pioneer of optical coherence tomography, who will discuss new OCT developments impacting that technology’s original application: Ophthalmology.

The tribute to Michael S. Feld, which will kick off the BiOS Hot Topics session on Saturday night, will be followed by seven other presentations, including one by David Huang, a pioneer of optical coherence tomography, who will discuss new OCT developments impacting that technology’s original application: Ophthalmology.

In addition, we'll get to hear about fluorescence lifetime techniques for intravascular diagnostics (presented by Laura Marcu of the University of California/Davis), using light to control the brain (by MIT’s Ed Boyden), and novel uses of femtosecond laser pulses (by Harvard’s Eric Mazur), and clinical multiphoton tomography (by Karsten Koenig, of Saarland University and JenLab GmbH—who won a 2010 Berthold Leibinger award 2010 Berthold Leibinger award for this work). Paras Prasad, of the University of Buffalo, will discuss a multiplex platform for analyzing macromolecular dynamics in live cells (while on Sunday, Prasad will deliver a keynote exploring the impact of multiphoton microscopy and multimodal imaging on 21st century healthcare).

Also part of Hot Topics will be a presentation by Alexander Oraevsky of Fairway Medical Technologies on 3-D optoacoustic tomography. While photoacoustics technology is only just beginning to enter the commercial market, it is an area of great interest and dynamism: The BiOS “Photons Plus Ultrasound” conference attracted nearly 30% more papers and almost 40% greater audience in 2010, over already-impressive increases in 2009. This year, Oraevsky chairs a Tuesday session on novel methods and technologies that will include a University of Michigan team discussing a photonic crystal-metallic structure able to produce an ultrasound signal at nearly the same frequency spectrum as the input laser pulse.

No comments: